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168 Keywords and input data formattingNCE, ² 4 w ² MNCS, ² 4 w ² M1@EBMULT 1Electro-magnetic multipole¤;¨§„¨ , 1 4, ¢ q , ¢ @ , ..., ¢ q ¤÷¨ : print field and coordinates along 0-2 Itrajectoriesq "Electric poles\Length of element; radius at pole tip; 2*cm, 10*V/m 12*Efield at pole tip for dipole, quadrupole,..., 20-pole electric components§ Š , ³ Š , ¢ > , ..., ¢ 7ˆ4Entrance faceIntegration zone; fringe field extent: 2*cm, 9*no dim. 11*Edipole fringe field extent = Š ;quadrupole fringe field extent = ³³ ŠØV...20-pole fringe field extent = ³ Š V¢ >;(for any component: sharp edge if fieldextent is zero)¢ 7ˆ4same as QUADRUPO 0-6, 6*no dim. I,6*E§ Œ , ³ Œ , · > , ..., · 7¸4Exit faceIntegration zone; as for entrance 2*cm, 9*no dim. 11*E0-6, 6*no dim. I, 6*E\Skew angles of electric field components 10*rad 10*E§„¨ , 1 4, ¡ q , ¡ @ , ..., ¡ qMagnetic poles\Length of element; radius at pole tip; 2*cm, 10*kG 12*Efield at pole tip for dipole, quadrupole,..., 20-pole magnetic componentsq , 1 @ , 1 U , ..., 1 q§ Š , ³ Š , ¢ > , ..., ¢ 7ˆ4Entrance faceIntegration zone; fringe field extent: 2*cm, 9*no dim. 11*Edipole fringe field extent = Š ;quadrupole fringe field extent = ³³ ŠØV...¢ >;20-pole fringe field extent = ³ ŠØV(for any component: sharp edge if fieldextent is zero)¢ 7ˆ4NCE, ² 4 w ² Msame as QUADRUPO 0-6, 6*no dim. I,6*E1 Use PARTICUL to declare mass and charge.
Keywords and input data formatting 1691§ Œ , ³ Œ , · > , ..., · 7¸4Exit faceIntegration zone; as for entrance 2*cm, 9*no dim. 11*ENCS, ² 4 w ² M0-6, 6*no dim. I, 6*EXPAS Integration step cm Eq , 1 @ , 1 U , ..., 1 q\Skew angles of magnetic field components 10*rad 10*EKPOS, XCE, KPOS=1: element aligned, 2: misaligned; 1-2, 2*cm, rad I, 3*EYCE, ALEshifts, tilt (unused if KPOS=1)
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CEA DSM DAPNIA-02-395 (2002)ZGOUBI
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Table of contentsPART A Description
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PART ADescription of software conte
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8¤¥ PARTICUL Particle characteris
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10ELECTROMAGNETIC ELEMENTSDecapoleD
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!!%" && 131 NUMERICAL CALCULATION
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1.2 Integration of the Lorentz Equa
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1.2 Integration of the Lorentz Equa
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4Ž ^ ˜ ¡§ ^"- ^ ˜ ¡ ^¡wTGT
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in fourth order. The coefficients
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4 ´ ´""4§> ´4 >4>1.4 Calculati
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A cylindrically symmetric field can
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Introducing also ¡The derivatives
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30 3 SYNCHROTRON RADIATION¾ÍôVT
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32 3 SYNCHROTRON RADIATIONÉ Éwher
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354 DESCRIPTION OF THE AVAILABLE PR
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4.2 Definition of an Object 37where
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4.2 Definition of an Object 39\Pqî
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4.2 Definition of an Object 41¹q
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4.3 Declaration of options 43\P4.3
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4.3 Declaration of options 45END or
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4.3 Declaration of options 47· £
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4.3 Declaration of options 49{ww{{q
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4.3 Declaration of options 51GASCAT
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4.3 Declaration of options 53·{N$
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4.3 Declaration of options 55PARTIC
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4.3 Declaration of options 57RESET:
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4.3 Declaration of options 59if qî
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4.3 Declaration of options 61P4©@4
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4.3 Declaration of options 63:£¨
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u2 >04.4 Optical Elements and relat
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4.4 Optical Elements and related nu
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Page 117 and 118: 4.4 Optical Elements and related nu
Page 123 and 124: 4.5 Output Procedures 123¨ ¢ < ¤
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Page 127 and 128: 4.5 Output Procedures 127PICKUPS: B
Page 129 and 130: 4.5 Output Procedures 129wSPNPRNL,
Page 131 and 132: 4.5 Output Procedures 131TWISS: Cal
Page 133 and 134: 4.6 Complementary Features 133U@©@
Page 135: 4.6 Complementary Features 135¢ww@
Page 139 and 140: Keywords and input data formatting
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218 Keywords and input data formatt
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Examples 231oÑwü¦INTRODUCTIONSev
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2331 MONTE CARLO IMAGES IN SPES 2Fi
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235********************************
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237zgoubi data file.800 MeV/c KAON
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2393 IN-FLIGHT DECAY IN SPES 3Figur
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241Excerpt of zgoubi output : histo
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243Excerpt of zgoubi output : first
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245zgoubi data file (begining and e
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247zgoubi data file.MICROBEAM LINE,
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2499 HISTO HISTOGRAHISTOGRAMME DE L
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253INTRODUCTIONThe basic zgoubi FOR
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REFERENCES 255References[1] F. Méo
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Indexacceleration, 56, 58, 74, 155,
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